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一种基于小波的心电图QRS环边界及等电位坐标检测器。

A wavelet-based VCG QRS loop boundaries and isoelectric coordinates detector.

作者信息

Kijonka Jan, Vavra Petr, Zonca Pavel, Penhaker Marek

机构信息

Department of Cybernetics and Biomedical Engineering, Faculty of Electrical Engineering and Computer Science, VSB-Technical University of Ostrava, Ostrava-Poruba, Czechia.

Department of Surgical Studies, Faculty of Medicine of the University of Ostrava, Ostrava, Czechia.

出版信息

Front Physiol. 2022 Oct 21;13:941827. doi: 10.3389/fphys.2022.941827. eCollection 2022.

DOI:10.3389/fphys.2022.941827
PMID:36338495
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9634758/
Abstract

This paper deals with a wavelet-based algorithm for automatic detection of isoelectric coordinates of individual QRS loops of VCG record. Fiducial time instants of QRS peak, QRS onset, QRS end, and isoelectric PQ interval are evaluated on three VCG leads together with global QRS boundaries of a record to spatiotemporal QRS loops alignment. The algorithm was developed and optimized on 161 VCG records of PTB diagnostic database of healthy control subjects (HC), patients with myocardial infarction (MI) and patients with bundle branch block (BBB) and validated on CSE multilead measurement database of 124 records of the same diagnostic groups. The QRS peak was evaluated correctly for all of 1,467 beats. QRS onset, QRS end were detected with standard deviation of 5,5 ms and 7,8 ms respectively from the referee annotation. The isoelectric 20 ms length PQ interval window was detected correctly between the P end and QRS onset for all the cases. The proposed algorithm complies the limits for the QRS onset and QRS end detection and provides comparable or better results to other well-known algorithms. The algorithm evaluates well a wide QRS based on automated wavelet scale switching. The designed multi-lead approach QRS loop detector accomplishes diagnostic VCG processing, aligned QRS loops imaging and it is suitable for beat-to-beat variability assessment and further automatic VCG classification.

摘要

本文介绍了一种基于小波的算法,用于自动检测心电图(VCG)记录中单个QRS环的等电位坐标。在三个VCG导联上评估QRS波峰、QRS起始、QRS结束的基准时刻以及等电位PQ间期,并结合记录的整体QRS边界进行时空QRS环对齐。该算法在健康对照受试者(HC)、心肌梗死(MI)患者和束支传导阻滞(BBB)患者的PTB诊断数据库的161份VCG记录上进行了开发和优化,并在同一诊断组的124份记录的CSE多导联测量数据库上进行了验证。对于1467次心跳,QRS波峰均被正确评估。QRS起始和QRS结束的检测结果与参考注释相比,标准差分别为5.5毫秒和7.8毫秒。在所有病例中,均正确检测到P波结束与QRS起始之间等电位的20毫秒长的PQ间期窗口。所提出的算法符合QRS起始和QRS结束检测的限制,并提供了与其他知名算法相当或更好的结果。该算法基于自动小波尺度切换,能很好地评估宽QRS波。所设计的多导联方法QRS环检测器完成了诊断性VCG处理、对齐的QRS环成像,适用于逐搏变异性评估和进一步的自动VCG分类。

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引用本文的文献

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Signal-averaged electrocardiography: Past, present, and future.信号平均心电图:过去、现在与未来。
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Possibilities of signal-averaged orthogonal and vector electrocardiography for locating and size evaluation of acute myocardial infarction with ST-elevation.
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